A Future Timeline for Automobiles

Many streams of accelerating technological change, from energy to The Impact of Computing, will find themselves intersecting in one of the largest consumer product industries of all. Over 70 million automobiles were produced worldwide in 2006, with rapid market penetration underway in India and China. Indisputably, cars greatly affect the lives of consumers, the economies of nations, and the market forces of technological change.

I thus present a speculative timeline of technological and economic events that will happen for automobiles. This has numerous points of intersection with the Future Timeline for Energy.

2007 :The Tesla Roadster emerges to not only bring Silicon Valley change agents together to sow the seeds of disruption in the automotive industry, but also to immediately transform the image of electrical vehicles from 'punishment cars' to status symbols of dramatic sex appeal. Even at the price of $92,000, demand outstrips supply by an impressive margin.

2009 : The Automotive X-Prize of $25 Million (or more) is successfully claimed by a car designed to meet the 100 mpg/mass-producable goal set by the X Prize Foundation. Numerous companies spring forth out of prototypes tested in the contest.

2011 : Two or more iPod ports, 10-inch flat-screen displays for back seat passengers, parking space detection technology, and embedded Wi-Fi adapters that wirelessly can transfer files into the vehicle's hard drive from up to 500 feet away are standard features for many new cars in the $40,000+ price tier.

2012 : Over 100 million new automobiles are produced in 2012, up from 70 million in 2006. All major auto manufacturers are racing to incorporate new nanomaterials that are lighter than aluminium yet stronger and more malleable than steel. The average weight of cars has dropped by about 5% from what it was for the equivalent style in 2007.

2013 : Tesla Motors releases a fully electric 4-door sedan that is available for under $40,000, which is only 33% more than the $30,000 that the typical fully-loaded gasoline-only V6 Accord or Camry sells for in 2013.

2014 : Self-driving cars are now available in the luxury tier (priced $100,000 or higher). A user simply enters in the destination, and the car charts out a path (similar to Google Maps) and proceeds on it, in compliance with traffic laws. However, a software malfunction results in a major traffic pile-up that garners national media attention for a week. Subsequently, self-driving technologies are shunned despite their superior statistical performance relative to human drivers.

2016 : An odd change has occurred in the economics of car depreciation. Between 1980 and 2007, annual car depreciation rates decreased due to higher quality materials and better engine design, reaching as little as 12-16% a year for the first 5 years of ownership. Technology pushed back the forces of depreciation.

However, by 2016, 40% of a car's initial purchase price is comprised of electronics (up from under 20% in 2007 and just 5% in 1985), which depreciate at a rate of 25-40% a year. The entire value of the car is pulled along by the 40% of it that undergoes rapid price declines, and thus total car depreciation is now occuring at a faster rate of up to 20% a year for the first 5 years. This is a natural progression of The Impact of Computing, and wealthier consumers are increasingly buying new cars as 'upgrades' to replace models with obsolete technologies after 5-7 years, much as they would upgrade a game console, rather than waiting until mechanical failure occurs in their current car. Consumers also conduct their own upgrades of certain easily-replaced components, much as they would upgrade the memory or hard drive of a PC. Technology has thus accelerated the forces of depreciation.

2018 : Among new cars sold, gasoline-only vehicles are now a minority. Millions of electricity-only vehicles are charged through solar panels on a daily basis, relieving those consumers of a fuel expenditure that was as high as $2000/year in 2007. Even when sunlight is obscured and the grid is used, some electrical vehicles cost as little as 1 cent/mile to operate.

2020 : New safety technologies that began to appear in mainstream cars around 2012, such as night vision, lane departure correction, and collision-avoiding cruise control, have replaced the existing fleet of older cars over the decade, and now US annual traffic fatalities have dropped to 25,000 in 2020 from 43,000 in 2005. Given the larger US population in 2020 (about 350 Million), this is a reduction in traffic deaths by half on a per-capita basis.

2024 : Self-driving cars have overcome the stigma of a decade prior, and are now widely used. But they still have not fully displaced manual driving, due to user preferences in this regard. Certain highways permit only self-driven cars, with common speed limits of 100 mph or more.

2025-30 : Electricity (indeed, clean electricity) now fuels nearly all passenger car miles driven in the US. There is no longer any significant fuel consumption cost associated with driving a car, although battery maintenance is a new aspect of car ownership. Many car bodies now include solar energy absorbant materials that charge a parked car during periods of sunlight. Leaving such cars out in the sun has supplanted the practice of parking in the shade or in covered parking.

Pervasive use of advanced nanomaterials has ensured that the average car weighs only 60% as much as a 2007 counterpart, but yet is over twice as resistant to dents.

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I believe that this timeline represents the the combination of median forecasts across all technological and economic trends that influence cars, and will be perceived as too optimistic or too pessimistic by an equal number of readers. Let's see how closely reality matches this timeline.

GK, why do you think that we are essentially using the same technology to power cars today, as that used when internal combustion engine-powered cars were first mass produced a hundred years ago?

I've often compared cars to airplanes & wondered that although we've seen 'planes develop from propellor-powered gliders to supersonic jets, in the same timeframe, cars' engines seem barely to have changed by comparison, despite the emergence of myriad new technologies.

Got to agree with John on this one. This post begs the question that we won't have developed some personal flight appliance, or for that matter, that slower-than-light transportation will be necessary are not made obsolete by exponentially improving telecommunications.

The whole prediction hinges on one item: cost efficient battery technology. It does not yet exist. A lot of people are working on it, but it just does not yet exist, and any prediction on a date of implementation is idle speculation.

I would rate it optmistic, but I *am* a pessimist :^). My reason for so believing is not purely temperament, however, viz:

One factor to consider is the effect significant numbers of electric vehicles and materials advances would have on the price of gasoline.

Certainly price pressure on *gasoline* as an end product would be lower than they would be without all the electric cars. If nanomaterial production is not petroleum based (sorry to be so ignorant here) then the replacement of plastics would also reduce demand for petroleum.

Given these points, it seems at least *plausible* that significant declines in the price of gasoline would slow adoption of electric vehicles purely from a cost perspective.

With self-driving cars, there's another category that may be more important: self-driving trucks.

With passenger cars, self-driving gives some advantages, but there's in any case a person inside who might as well drive. The economic justification is second-order at best (and therefore easy to ignore or overlook).

With trucks, there's a clear cost saving. The speed of adoption may well be much faster...

From $3 a gallon in 2007 to $5 by 2009, to $10 by 2012. After that, it all depends on where we are at with alternative energy, and how much of a recession or even a depression the economy is in.

Even if we completely convert to non-gas, non-diesel cars and trucks, (unlikely), we will still have a high demand for available oil for making plastics.

I know, most people won't agree with the oil predictions, but that's the way it is folks. When oil went to $40 a barrel, I said it would go to $60, and everyone I met said no, it will go back to $20. When it went to $60, I said it would go to $80 and everyone I met said no, it will go back to $40. And so on, now it's at $90, and I keep hearing people say it's going back to $70. It's just wishful thinking people, wake up to reality, oil will cost a lot more in the future.

You have a good idea of what's gonna happen with the automobile industry although I must point out the lack of predictions regarding the new car generation's technicality about maintenance such as auto repair. Indianapolis also has some predictions regarding the future of automobiles, specifically hybrid or electric-powered cars. Car dealers in Indianapolis are actually making a living with these new hype about the future of automobile by importing hybrid-motor cars.

Very interesting look into the future.. yea what about the flying cars? I would like to see more good looking hybrids in the future; especially from Bmw and benz instead of the odd shaped ones that seem to be the range now. I would also like to see mpg nearing 80 mpg in future hybrids... Electic cars in the future will also need huge ranges like 1,000 at least and there will have to be electric fueling places everywhere... Looking into the future is fun!

Since the introduction of electronic systems in cars, the possibility of KITT being an actual car is closing in. May it be the original Pontiac Trans-Am KITT, the Ford Shelby GT500KR KITT, or any car you would like to be KITT; it's going to be possible in the near future.

The technology is here. It needs to be developed and tested more, but it's already arrived. We are looking as a timeline of a few years or a decade before normal folks can enjoy this. I'm actually looking forward to it.

GK, I am impressed that your self-driving car prediction is more or less on track. With self-driving cars already approved on public roads in Nevada and California, it seems like 2014 could just about happen. But I am wondering about something. I have scoured the web but haven't been able to find a satisfactory answer.

It seems to me that at least those states where it is approved would have to provide a real-time "database of record" for speed limits and other traffic restrictions that change frequently. It would even have to include school speed limits during school commute hours/days. And it would have to have the force of law. That is, merely posting a sign would no longer be enough. It would have to be posted online as well. I can't find any evidence that such databases exist, down to the real-time level of detail required, and certainly none that carry the force of law. As it stands now I foresee that we could have officers writing tickets to--what? If the human passenger remains responsible, then many of the benefits of self-driving go away.

In the mean-time, if such databases did exist, they would provide all kinds of opportunities for smarter cruise-control, GPS system warnings, etc.

I really think a system like this paired with our ever growing technology could really do some good things in some vital areas like fleet vehicles. They are a strong backbone of many industries and will only further thrive on this information

Also the news came out that SunPower has contracted with Ford to build solar panels that will generate enough electricity to charge an electric car, people have been scrambling to catch up, well i am an automobile lover so i like to take the information about automobiles and i always take help from http://www.automotix.net/newsletter.html